Fuel gas conditioning stands as the indispensable process of transforming raw natural gas into a clean, consistent, and reliable fuel source. It safeguards power generation equipment, drives industrial processes, and fuels countless applications.

By meticulously removing harmful impurities, gas conditioning ensures efficient combustion, prolongs equipment life and supports environmentally conscious practices. Read on to learn about the process and benefits of fuel gas conditioning, myths around the subject, and more.

Why Prioritize Fuel Gas Conditioning?

Raw natural gas, fresh from the wellhead, often harbors a complex mixture of contaminants with the potential to wreak havoc on your systems, including:

Water

Moisture, even in minute quantities, triggers corrosion, induces pipeline freeze-ups, and compromises overall combustion efficiency.

Natural Gas Liquids (NGLs)

Heavy hydrocarbons like propane, butane, and others disrupt combustion dynamics, potentially leading to erratic engine performance, knocking, or even catastrophic damage.

Solids (Sand and Grit)

Abrasive particulates accelerate wear on valves, turbines, combustion chambers, and other critical components.

Sulfur Compounds

These notorious elements contribute to corrosive deposits and increase the formation of harmful emissions like sulfur dioxide (SO2).

The Conditioning Process

Fuel gas conditioning employs a strategic arsenal of techniques that help gas production facilities achieve the highest fuel purity standards:

Separation

Filters, separators, and knockout vessels act as the first line of defense, physically removing liquids and particulate matter.

Absorption

Specialized glycol or amine solutions selectively target and trap water vapor, sulfur compounds, and even carbon dioxide (if necessary).

Temperature Application

Heating, chilling, and the Joule-Thomson effect (where pressure changes induce condensation) play vital roles in separating liquid hydrocarbons and maximizing contaminant removal.

Benefits of Fuel Gas Conditioning

By investing in fuel gas conditioning, you unlock a host of advantages:

Equipment Lifespan

Clean fuel means less wear and tear, preventing premature failure of expensive turbines, engines, and other sensitive machinery.

Reduced Downtime

Conditioned gas minimizes breakdowns and unexpected disruptions, keeping your operations running smoothly and ensuring vital processes stay on schedule.

Improved Emissions Profile

Optimized combustion translates to cleaner exhaust with reduced levels of harmful pollutants like SO2 and nitrogen oxides (NOx).

Long-Term Cost Savings

Increased efficiency, reliable operations, and reduced maintenance interventions offer significant financial benefits over time.

Busting Common Myths About Fuel Gas Conditioning

Fuel gas conditioning plays a vital role in ensuring the efficiency, reliability, and longevity of machinery that depends on fuel gas. However, some persistent myths create misconceptions about the process. Let’s debunk a few of these common myths and shine a light on the importance of fuel gas conditioning in our industry and beyond.

Myth 1: Prohibitive Expense

While fuel gas conditioning systems require an initial investment, it’s important to look at the bigger picture. The long-term consequences of using unconditioned fuel far outweigh the upfront cost. Equipment breakdowns, costly repairs, lost productivity due to downtime, and potential environmental penalties can be significantly more expensive than properly conditioning fuel gas.

Myth 2: Excessive Complexity

Thanks to technological advancements, fuel gas conditioning has become remarkably streamlined.  Modern solutions often come in modular and customizable designs, making them adaptable to various applications and simplifying their implementation.

Additional Considerations

Beyond these common myths, it’s essential to remember that fuel gas conditioning isn’t just a safeguard — it’s about optimization. By removing impurities and ensuring consistent fuel quality:

• Equipment lifespan: Clean fuel reduces wear and tear on critical components.
• Enhanced Performance: Consistent quality means reliable, efficient engine operation.
• Reduced Emissions: Well-conditioned fuel helps meet environmental regulations.

Beyond Conditioning

Effective fuel gas conditioning extends far beyond just the downstream treatment of the fuel itself. To achieve truly optimal results, it’s essential to adopt a proactive, holistic approach. Here’s how:

Wellhead Design

The journey to clean fuel gas begins at the very source. By implementing thoughtful well design and construction practices, the entrainment of contaminants (like water, sand, or hydrocarbons) can be significantly minimized. This proactive step reduces the load on downstream conditioning systems.

Upstream Maintenance

Proper maintenance of the entire fuel gas infrastructure is crucial. Pipelines, compressors, and any early-stage processing equipment must be kept in good working order. Proactive upkeep prevents issues like corrosion, leaks, and the introduction of new contaminants further down the line.  This also lessens the burden on your downstream fuel conditioning processes.

Downstream Conditioning

Of course, robust downstream conditioning remains a cornerstone of ensuring high-quality fuel gas. Systems that remove liquids, particulates, and other impurities are crucial for protecting equipment and ensuring consistent combustion.

The Benefits of a Holistic Approach

By taking these comprehensive measures, you can:

• Equipment Lifespan: Minimizing contaminants from the very beginning protects expensive machinery from damage.
• Optimized Performance: Cleaner, higher-quality fuel means the reliable and efficient operation of engines and other fuel-dependent systems.
• Environmental Compliance: Proactive contaminant reduction aids in meeting emissions regulations.

Pro-Gas LLC for All Your Fuel and Fuel Conditioning Needs

Elevate your operation with Pro-Gas LLC. We bring unparalleled knowledge and advanced fuel gas conditioning systems to deliver tailored solutions. Contact us today to explore how we can optimize your fuel quality, streamline your facility, and pave the way for a more sustainable future.

Natural gas liquids (NGLs) like propane, butane, and ethane are valuable byproducts of natural gas processing. They have a variety of industrial and commercial uses, from providing fuel for heating and engines to being petrochemical feedstocks. 

 

However, NGLs can be hazardous if not properly handled and stored. 

As natural gas production experts, we’re here to provide an overview of safe NGL storage methods at industrial plants, including portable storage options.

Ensure Proper Storage Containers and Tanks

NGLs are often stored onsite in large pressurized storage tanks at gas processing plants. It’s crucial that these tanks and any associated piping and equipment be engineered to contain the NGLs safely. 

 

Tanks should comply with standards from organizations like the American Petroleum Institute. The proper construction materials, thickness, welds, valves, and gauges must be used. Tanks should also have emergency pressure relief mechanisms in case of over-pressurization. Regular inspection and maintenance are key.

 

Smaller NGL containers like drums and cylinders should also be robust and specifically designed for holding liquid hydrocarbons at pressure. Containers should be clearly labeled with their contents and any associated hazards. Never use an unapproved container to store NGLs. Proper personal protective equipment like fire-resistant clothing, gloves, and eye protection should be used when handling NGL storage containers.

Use Caution with Portable NGL Storage

Portable NGL storage tanks provide flexibility in containing and transporting NGLs onsite. These tanks are filled at processing units and transported for further loading, unloading, and use. Caution must be exercised during every step of working with portable NGL tanks.

 

Tanks should be designed for at least 1.5-2 times the maximum allowable working pressure of the NGL. Steel construction with welded, flanged, and threaded connections is preferable.

 

Only trained personnel should fill, transport, and offload portable tanks. Proper personal protective equipment must be worn.

 

Hoses and transfer piping should be resistant to NGLs and have the appropriate pressure rating. Connections must be tight.

 

During transport, tanks should be properly secured to trucks or trailers. Tanks must have shutoff valves.

 

Offloading should take place away from ignition sources in a contained area. NGLs should go directly into approved permanent storage infrastructure. 

Use Dikes and Containment Structures

As an added safety measure, permanent and portable NGL tanks can be surrounded by containment structures like dikes or catchment pits. 

 

These are barriers made of impermeable materials like concrete. They provide an extra layer of spill and leak containment in case of a breach in the tank itself. Dikes should hold a volume equal to 1.5 times the full volume of the tank. And the dike material must be compatible with exposure to NGLs.

 

Similarly, filling and offloading areas for NGL tanks and containers can be designed with curbs, berms, or drainage trenches for spill containment. Having containment measures and the appropriate absorbent materials on hand enhances the safety of any area where NGLs are transferred and stored.

Adhere to Codes and Inspect Storage Infrastructure 

There are a variety of occupational safety codes and standards in place for handling NGLs from organizations like OSHA and NFPA. Plant managers must be familiar with any regulations applicable to their site and make sure all NGL infrastructure adheres to the necessary codes. 

 

Regular inspection and testing ensure that tanks, piping, valves, and containment structures remain in satisfactory condition over time. Storage infrastructure should also be designed by qualified engineers familiar with NGL safety requirements.

 

It’s also crucial to have active leak monitoring, good ventilation, proper labeling, and restricted access to NGL storage areas. Fire suppression equipment, system interlocks, and emergency shutoffs add to the overall safety of the facilities as well. Plant personnel require ongoing training for operating NGL handling and storage equipment most safely.

Perfect NGL Storage Today, With Pro-Gas Services, LLC

Storing NGLs properly is vital for the safety of industrial facilities and personnel. Following the best practices outlined above for storage methods, containers, portable tanks, containment measures, and good design ensures NGLs are managed prudently. Safe handling and storage of these valuable gas plant products starts with working with our team at Pro-Gas Services, LLC.

We can help you find the right storage solutions for your NGLs and give your facility the edge it needs in our thriving industry. Contact us today to learn more about our product availability,

Natural gas has become one of North America’s most popular energy sources for heating homes. Natural gas’s convenient, clean-burning properties suit home heating systems well. But how did natural gas become integral to providing residential warmth? 

 

Let’s look closer at natural gas use throughout history and how we went from early times to full natural gas facility processing.

The Early Days of Manufactured Gas for Lighting and Cooking

The origins of using gas for residential needs can be traced back to the early 1800s. There were no official pipelines in cities, and gas was used mainly for lighting streets, businesses, and homes. Coal gas was also used for cooking in more affluent households. 

 

But it wasn’t until the last decades of the 1800s that using gas for heating came into broader use. Early gas heating systems were simple, relying on the open flame burners of gas lamps or plates to provide warmth to a room.

The Rise of Natural Gas and Closed Heating Systems

The development of long-distance pipelines brought naturally occurring gas from wells to population centers in the early 1900s. With this steady supply, closed central heating systems fueled by natural gas began to gain popularity in the 1910s and 20s. 

 

Early natural gas heating systems took the form of solid fuel stoves that had been converted to use gas. Heat circulates through rooms via free convection from the stove and radiation from stove pipe assemblies. These systems were a major advancement from wood and coal stoves in convenience and cleanliness.

 

However, fireplaces and stoves were still the main heat source during the early years. Heating systems using natural gas were for more affluent homeowners and businesses.

 

Natural gas wouldn’t expand to the average user via pipeline until the 1940s.

Natural Gas for Heating Expands after World War II

The interstate pipeline network greatly expanded in the 1940s and 50s, increasing the availability of natural gas across the country. With this improved access, natural gas heating systems grew to become the most common choice for new home construction. 

 

Smaller, more efficient gas furnaces and boilers made heating with natural gas economical. Improved designs also offered enhanced safety with the use of pilot lights and automatic valve shutoffs. This appealed to homeowners wanting to avoid the work and mess of coal furnaces.

 

The postwar economic boom and rise of suburbs led to rapid housing construction. These new neighborhoods were outfitted with natural gas, furthering its prominence. By the 1960s, gas heating was the preferred method for keeping a family warm.

Continuing Use Despite 1970s Shortages

Natural gas shortages through the 1970s temporarily disrupted the residential market. New connections were limited, and some switches back to heating oil occurred. But it remained the cheaper and preferred option for most homes with existing natural gas hookups. 

 

Shortages spawning from the oil embargo of 1973 spurred improvements in energy efficiency that would benefit gas heating. Building codes began requiring more insulation. Furnace efficiency standards also increased, lowering fuel usage.

 

Deregulation of natural gas in the 1980s enabled more production and stable supplies, leading to a rebound in new construction with gas heat. More efficient furnace designs such as condensing boilers also reduced consumption.

Natural Gas Heating in Modern Homes

Around 58 million U.S. households today use natural gas as their main space heating fuel. High-efficiency furnaces and boilers have minimized home heating costs while reducing emissions. 

 

Natural gas is now delivered through an extensive network of underground mains and service lines, creating ease of use and a comfortable environment for owners. Continued infrastructure maintenance and safety improvements by utilities ensure modern gas heating remains convenient and reliable.

Stay Up-to-Date On Natural Gas Access With Pro-Gas Service, LLC

Though refinements are still being made, natural gas heating has undergone relatively little change compared to the boiler and furnace systems of a century ago. Natural gas’s clean, economical properties continue to make it well-suited for providing warmth in homes across North America.

 

Pro-Gas Services specializes in providing the equipment that helps facilities and drill sites bring natural gas home to consumers.

 

If you’re ready to make your production facility the best it can be, contact us today to learn more about our available equipment.

Natural gas is a product that keeps our world in motion. Fortunately, the United States has access to several natural gas reserves across the nation.

 

Natural gas, however, is a limited resource, and national production facilities and even consumers need to understand the state of mining areas in various regions.

 

Let’s take a closer look at a snapshot of the current state of affairs within shale locations in the country and find out more about the direction our industry is headed

Marcellus Shale

Located primarily in Pennsylvania and West Virginia, the Marcellus Shale is one of the largest natural gas fields in the United States. It covers a vast area and has significant reserves of natural gas.

 

As of 2019, the Marcellus Shale has proven to be a fruitful but limited resource for natural gas. It is expected to last a maximum of 92 years. However, don’t let the expiration date scare you off, there is still an estimated 214 trillion cubic feed of undiscovered natural gas throughout the shale.

Utica Shale

Situated beneath the Marcellus Shale, the Utica Shale extends across parts of Ohio, Pennsylvania, and West Virginia. It contains substantial natural gas resources and is considered an attractive location for drilling.

 

The Utica Shale is an extremely fruitful location for both natural gas and oil extraction. It currently contains around 38 trillion cubic feet of natural gas, 208 million barrels of natural gas liquids, and around 940 million barrels of crude oil! 

 

Since this shale is located a few thousand feet below the Marcellus Shale, it hasn’t extensively been explored. However, with technological advancements in horizontal drilling and hydraulic fracturing, our industry is expected to begin to make the most of what this underground wising well offers.

Haynesville Shale

The Haynesville Shale is located in Louisiana and Texas. It is another prominent natural gas deposit that is known for its vast reserves and has been a significant contributor to the United States’ natural gas production.

The Haynesville Shale has recently begun to live up to the high production standards that Texas and Louisiana hold it to. In March 2023, the shale produced an average of 14.5 billion cubic feet per day, a record high for the location!

Eagle Ford Shale

Situated in South Texas, the Eagle Ford Shale is a prolific natural gas and oil field. While it is renowned for its oil production, it also contains substantial amounts of natural gas. The shale experienced a decline in production throughout 2020. However, industry experts predict production levels to expand and grow beyond pre-pandemic levels by 2025.

Stay Up-to-Date on Natural Gas with Pro-Gas Services, LLC

The natural gas industry is subject to changes and developments over time. This makes critical services like NGL storage and excess reserves an important solution for preserving the state of our limited resources. 

 

As exploration and production companies continually assess new areas and technologies, the landscape of natural gas extraction evolves, and we’ll eventually have further updates on these and other natural gas extraction locations.

 

Stay tuned to our blog for these and other news updates surrounding our industry.

 

Contact us today to learn more about the services we provide that can improve your facility and mining sites.

In today’s rapidly evolving energy landscape, the demand for cleaner and more efficient sources of fuel is paramount. With its abundant availability and lower carbon emissions than other fossil fuels, natural gas has emerged as a significant player in meeting global energy needs. 

 

However, natural gas isn’t mined for consumer use from the start. To harness its full potential, the liquefaction process plays a crucial role. At Pro-Gas Services, we love discussing the ins and outs of the oil and gas industry. Let’s explore the liquefaction process for natural gas and delve into why it is essential for our energy future.

Why Does Natural Gas Liquefaction Matter?

Natural gas primarily consists of methane (CH4), a hydrocarbon compound. In its gaseous state, natural gas requires a large volume for storage and transportation, limiting its utility. The liquefaction process condenses natural gas into a liquid form, known as liquefied natural gas (LNG), making it more manageable and convenient for consumer use.

 

There are many reasons why liquefaction is a critical process in the natural gas industry.

 

Some of the most common reasons behind the process include:

 

• Liquefaction reduces the volume of natural gas, making it easier and more cost-effective to store and move to consumers.
• Easier importing and exporting for global trade
• Liquefaction allows for rural and offshore locations to have a reliable avenue for accessing natural gas.
• LNG provides an excellent backup for intermittent renewable energy sources like solar and wind power.

Understanding Natural Gas Liquefaction

The liquefaction process involves several stages to convert gaseous natural gas into LNG. Let’s examine the process step by step.

Removal of Impurities 

Before liquefaction, the raw natural gas undergoes a purification process in a separator. Impurities such as water, oil, condensates, carbon dioxide, and hydrogen sulfide are removed to prevent contamination and enhance or “sweeten” the quality of the final product.

Compression and Pre-Cooling

In this stage, the natural gas is compressed to increase its pressure. Compressing natural gas raises the temperature of the gas, making it more moveable through pipelines and consumer networks. Compression ultimately prepares natural gases for the cooling process ahead.

 

The compressed gas is then cooled using a natural gas cooler. This pre-cooling step lowers the gas temperature to around -50 degrees Celsius, causing it to enter its NGL state.

Liquefaction 

The pre-cooled gas, now in a semi-liquid state, is further cooled using a refrigeration system. This intense cooling drastically reduces the NGL’s temperature causing the NGLs to condense into LNG. The LNG is then collected and stored in specialized cryogenic tanks for transportation and storage.

Storage and Transportation

LNG is typically stored in large, insulated tanks to maintain its extremely low temperature. These tanks are designed to withstand cryogenic conditions and keep the LNG stable until it reaches its destination. The LNG can be transferred onto portable NGL storage containers for easy transportation or quick storage at a local natural gas production facility. 

Settle Your Liquefaction Easier, With Pro-Gas Services, LLC

The liquefaction process for natural gas has revolutionized the energy industry, enabling the efficient storage, transportation, and global trade of this abundant fossil fuel.

 

However, achieving a perfect final product involves working with the right equipment to get the job done. At Pro-Gas Services, we understand the importance of a sustainable energy future and natural gas liquefaction. We offer a wide range of equipment and services that can help facilities nationwide create portable, usable natural gas products that keep the world energized.

 

If you’re ready to invest in a gas cooler package or another service we offer to benefit your efforts, contact us today to learn more!

The oil and gas industry requires several pieces of equipment to create consumer-ready products that literally keep communities moving.

 

From gas conditioners to vapor recovery units (VRUs), the Pro-Gas team has seen it all and understands how each piece of equipment fits into our industry’s success story.

 

However, we like to educate our customers and understand there are many questions surrounding various equipment pieces.

 

Let’s put VRUs under the microscope and learn more about their purpose and how they benefit our thriving industry.

What is a Vapor Recovery Unit (VRU)?

A VRU is a system we use in the industry to recover vapors and gasses we generate during oil and gas production, processing, and storage. 

 

VRUs are compression systems that capture and compress vapors and gasses. Once these vapors and gasses have been compressed, they are sent further into the production process and are injected into local site fuel gas systems or gas gathering lines.

Why is Vapor Recovery Important in the Oil and Gas Industry?

Raw vapors and gasses are horrible emissions to the environment. As our industry presses on with being more environmentally aware, we use vapor recovery to remain in environmental compliance and reduce the presence of contaminating vapors.

 

Vapor recovery also serves as an essential cost-saving process as we can meet consumer demand by recovering valuable resources that are reusable and profitable.

What are the Key Components of a VRU?

A Vapor Recovery Unit typically consists of four major components: a gas compressor, a scrubber, a switching device, and Variable Frequency Drives. 

 

Gas compressors are the main device that reduces the natural gas’s volume and delivers it at a precise pressure that meets consumer regulations.

 

Scrubbers remove impurities like acid gasses, heavy hydrocarbons, and water from natural gas.

 

Pressure switches monitor gas pressure while the device is in use. It keeps a constant pressure within the unit and completely shuts down operations if pressure exceeds a specified level in the VRU.

What Are the Benefits of Using a VRU?

VRUs help companies reduce emissions and meet regulatory requirements while also recovering valuable resources that can be reused or sold. 

 

Additionally, VRUs can help natural gas production facilities and production sites in the industry save money on energy costs by capturing and reusing otherwise wasted gasses.

What Types of VRUs Are Available?

 

There are several types of VRUs on the market. These include mechanical VRUs, thermal VRUs, and adsorption VRUs. 

 

Mechanical VRUs use a compressor to capture and compress the vapors, while thermal VRUs use heat to vaporize the gasses and capture them for reuse or sale. Adsorption VRUs use activated carbon or other materials to capture and recover the vapors.

How can I Select the Right VRU for My Facility?

Selecting the right VRU for your operation depends on several factors, including the volume and type of vapors generated at your facility and the environmental requirements of your jurisdiction. 

 

Navigating such requirements can be complex. That’s where we can step in and offer facility services that guide your site toward selecting the right equipment for your operations.

Need Help With Facility Equipment Selections? Call On Pro-Gas Services, LLC

Whether you are trying to master effective NGL storage or want to know more about the benefits of gas conditioning, the experts at Pro-Gas Services are here to help. We’ve made it our duty to provide facilities across the nation with premier natural gas facility services that keep production flowing.

 

Contact us today to learn more about our services!

Renewable energy may be the resource goal of the future, but the current push towards sustainable resources doesn’t cut natural gas out of the equation.

The transition to renewable energy is one of humanity’s most important challenges, and we’re ready to be a part of it. With the world facing the impacts of climate change, even the natural gas industry can say that it’s time to welcome sustainability and fossil fuels under one roof.

While renewable energy sources like wind and solar are the key to achieving this transition, natural gas can also play a useful role during this period of change. Let’s dive into how natural gas can help make a difference in sustainability and why the world will always need us around!

Backup Power

Windmills and solar panels are renewable energy sources that suffer from intermittency.

They only produce energy when the sun is shining, or the wind is blowing. If these factors aren’t in place, there’s no natural energy production.

Lack of power in a market full of supply and demand can create severe challenges for the electricity grid.

They require backup power sources to ensure a reliable electricity supply. Natural gas power plants can serve as a backup power source when renewable energy sources are not producing enough electricity.

Trust our fossil fuels to help you keep the lights on, no matter what.

Transportation Fuel

While society may be taking steps forward with electric cars, we are still a ways away from using renewable energy sources as a total fuel for transportation.

For example, shipping and aviation currently still heavily relies on natural gas and liquified natural gas to get their engines running.

Natural gas may not be renewable, but using it can reduce emissions in comparison to gasoline or diesel fuel use.

Let natural gas help you put your best foot forward within sustainability and climate control efforts that come with renewable energy.

Energy Storage

You know the old saying about “saving up for a rainy day”? The same thought process can apply to natural gas and renewable energy. We’ve already gotten into how natural gas can power plants when the sun isn’t shining or the wind isn’t blowing. But what happens when energy sources produce more than what’s already in demand?

Natural gas can also be used as an energy storage medium. When renewable energy sources produce more electricity than is needed, excess electricity can be used to generate hydrogen, which can then be stored in natural gas pipelines. When renewable energy sources are not producing enough electricity, this stored hydrogen can be burned to generate electricity.

Step into Sustainability With Pro-Gas Services

Renewable energy sources like wind and solar are the key to achieving a sustainable, low-carbon energy system. Natural gas can also play a useful role during the transition. From serving as a backup power source to fueling transportation, it’s an efficient method for bridging the gap between fossil fuels and renewable energy.

While media outlets tend to pit natural gas against renewable resources, the truth is that natural gas can help us move towards a cleaner, more sustainable energy future. At Pro-Gas Services, we are dedicated to helping build these bridges for facilities and mining sites.

From gas conditioners to storage, we have you covered. Contact us today to learn more about our services.

As the world shifts towards cleaner and more sustainable energy sources, natural gas has emerged as a viable and efficient option for multiple sectors.

It’s no secret that industries are constantly evolving to keep up with the demands of modern consumers. Therefore, in order to offer faster, safer, and more reliable services, businesses across all industries are increasingly turning to natural gas as a solution.

At Pro-Gas Services, we are all about natural gas and the positive impact it has on the businesses we help serve. Let’s take a closer look at the many ways in which natural gas is revolutionizing various industries.

Natural Gas Makes the Food Service Industry a Powerhouse

Switching to natural gas can be advantageous for both the environment and the bottom line. Powering restaurants with natural gas ensures a more sustainable and cost-effective alternative to traditional energy sources like coal and oil.

Moreover, natural gas equipment often boasts higher thermal efficiency, allowing for faster cooking times while evenly distributing heat throughout the cooking surfaces. This means tha patrons experience shorter wait time for food while also getting consistent satisfaction of food doneness.

Gas-powered stoves, ovens, grills, steamers, and even deep fryers, are helping the food industry optimize cooking practices and ensure natural gas takes up the mantle as one of the most efficient energy sources in modern society.

Natural Gas Helps Businesses Promote Positive Environmental Impact

As previously mentioned, natural gas is a cleaner-burning fuel compared to alternatives like coal and oil. It produces around 45 percent less carbon dioxide when burned and emits fewer harmful pollutants like nitrogen oxide and sulfur dioxide.

Therefore, using natural gas in most major commercial sectors helps business owners reduce greenhouse gas emissions and take a positive step toward climate control.

In short, natural gas is a sustainable energy source that is perfect for any establishment that is committed to doing its part for the environment.

Enhanced Resilience During Emergencies

As many Texans witnessed first-hand a couple of years ago in a major winter storm, a long time without electricity can be dangerous under extreme conditions. Natural gas plays a crucial role in bolstering resilience across various industries during emergencies. During that winter storm, outages had little to no impact on gas-powered appliances.

Unlike electric power, which is vulnerable to interruptions caused by storms, natural gas is often delivered via underground pipelines, making it less susceptible to external disruptions.

This feature is particularly vital for many industries like food service, which can face considerable losses due to power outages. By having natural gas as a backup or primary energy source, savvy business owners can enhance their operational resilience and ensure business continuity in the face of nature-induced challenges.

Embrace the Wonders of Natural Gas with Pro-Gas Services, LLC

Opening the arms of your business to natural gas can help you take full advantage of all the benefits the energy source has to offer. If you’re a business owner or just someone that’s curious about the many ways natural gas shapes our economy, we specialize in both helping the natural gas industry and spreading the word on the latest industry news.

At Pro-Gas Services, we provide facilities and mining sites with essential fuel conditioning equipment that helps providers create natural gas products that keep industries on the move.

If you manage a facility and want to have the latest equipment under your employ, reach out to us today to learn more about our product availability!

Pro-Gas LLC provides production facilities in the state of Texas for natural gas. We like to think we know more than the average person about natural gas.  As such, check out these mind-blowing facts about natural gas that most people do not know.

1. Natural Gas is Diverse

Natural gas mainly consists of Methane, but also has other hydrocarbons like:

• Ethane
• Butane
• Propane
• Naphtha

Natural gas is also odorless, colorless, and flammable.

 

2. Smell that?  It’s there for a Reason

Natural gas is actually odorless. This makes gas dangerous, so utility companies add mercaptan to the resource in order to create the smell of rotten eggs and make a leak easier to detect.

 

3. Natural Gas is Versatile

Thousands of your daily life products have gotten their start from natural gas. Not only does natural gas heat your house and cook your food, but it has also been used to create fabrics, plastics, and fertilizers. It is also responsible for making:

• Vinyl flooring
• Carpeting
• Piping
• Roofing
• Furniture
• Medicine and other health supplies
• Deodorant
• Cameras, cell phones, computers

 

4. Christmas Trees Are Always in Season

No, this is not the tree that your family puts up every December. A “Christmas tree” in this instance is an assembly of valves, spools, and fittings that are designed to control the flow in our out of the gas well. This device also detects sand, corrosion, temperature, pressure, and erosion.

 

5. Gas Runs Deep Throughout History

The first record of natural gas igniting was in 1000 B.C. Greece when the “eternal flame” was created in Mount Parnassus.

Pipelines in China built in 500 B.C. were lines made out of bamboo that moved gas throughout the set of pipes.

William Hart in New York dug the first natural gas well in 1821. It was 27 feet deep.

 

6. Twice the Form, Twice the Benefit

Natural gas can be dry or wet. Dry gas is commonly used to heat and generate electrical power in the home. This is complete methane, which is much different than wet natural gas. The wet form contains less than 85 percent methane and has a higher percentage of liquid natural gas.

 

 

7. Natural Gas is Environmentally-Friendly

Natural gas has been a huge part of the global energy mix and accounts for the world’s primary fuel consumed. By replacing coal with gas, the UK has been able to reduce its CO2 emissions to the level of the Victorian Era.

 

8. Natural Gas Powers Las Vegas

Every hour on the hour, every night, a volcano in front of The Mirage hotel in Las Vegas erupts. This volcano erupts because it is fueled by pina colada-scented gas.

 

9. The Natural Gas Industry is Truly Art

We know, it sounds funny, but it’s true! Famous portrait painter Rembrandt Peale, was the first person to found a natural gas facility in the United States. In 1816, Peale opened his facility in Baltimore, Maryland. What was his inspiration? Well, his art! Peale had used natural gas to set the mood for his lighting of a gallery for his work. From there, his vision became a reality, which later became an entire industry.

 

10. Natural Gas Helps Millions

Every day, natural gas helps millions of people get to their destinations and accomplish daily tasks. The numbers are actually quite astounding.

• Natural gas powers over 11 million cars worldwide
• Over 72 million people rely on natural gas everyday
• Approximately 66 million households use natural gas to keep homes running
• 9 out of 10 chefs would rather work with natural gas stove over an electric stove.  When you think of how many professional and self-proclaimed chefs out there, that’s a lot of natural gas in use

 

11. Need Natural Gas?  Look to the East!

While the United States loves to toot our own horn about our local natural gas supply, we aren’t the head honcho when it comes to having the most natural gas resources. 

In fact, the number one nation with the most shale gas resources is China, which has more than double the amount of resources we have in the West. 

 

12. Natural Gas is an Appliance Money Saver

Natural gas is a cheaper source of energy than electricity. So, if you utilize natural gas appliances like stoves, dryers, or water heaters, you could be saving hundreds of dollars more than the average electric customer.

 

 

**BONUS FACT**

Because you made it this far….

Natural Gas is Lighter than Air

Many often confuse propane and natural gas as the same final product. The truth is, they aren’t, and their weight proves it! Propane gas is heavier than air, while natural gas is literally a lighter gas option.

 

 

Pro-Gas Keeps the Industry Flowing

If you are in need of NGL storage or just have questions about the natural gas industry and the facilities that run it, get in touch with Pro-Gas, LLC today. We offer the best in industry equipment and have a team of experts that will be able to answer all of your questions.